Computer High-Voltage Corona Recognition Analysis Based on Ultraviolet Imaging Technology

Abstract

Ultraviolet-visible high-voltage corona recognition tends to have no mechanical moving parts, integration and solid state to complete the complex, high-temperature and high-pressure detection site. At the same time, it must have the characteristics of fast detection speed, reliable data and high reproducibility. Among them, the miniaturization and solidification of ultraviolet-visible high-voltage corona recognition are mainly reflected in the dispersion system and the miniaturization of the overall structure is mainly reflected in the miniaturization of the input and output system, the miniaturization of the light source and the optical fiber connection between the probe and the instrument. The input and output system uses a touch screen to avoid the problem of large volume caused by the separation of the input and output system; the light source adopts an optical fiber light source to achieve miniaturization; the probe is selected to be placed outside the instrument and connected with the instrument by optical fiber to achieve long-distance measurement. From the perspective of the development of high-voltage corona recognition, the use of solid-state design array detectors can make high-voltage corona recognition a measurement and analysis device widely adapted to various fields. Technically, the use of optical fiber technology can make the configuration of high-voltage corona recognition flexible and portable; in design, modularization and optical fiber can make high-voltage corona recognition freely constructed; in terms of development concept, computer technology can make high-voltage corona recognition automatic, Intelligent.